International Seismological Centre
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Online Event Bibliography
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Search publication for ISC event 7453151
ISC Event Agency Origin time Lat Lon Depth Magnitude Article_total Event code 7453151 ISC 2004-12-26 00:58:52 3.41 95.90 26.1 Mw(HRVD) = 9.0 731 SUMATRA2004
Špičák, A. and Vaněk, J., 2016. Earthquake swarms reveal submarine magma unrest induced by distant mega-earthquakes: Andaman Sea region, J. Asian Earth Sci., 116, 155-163, DOI: 10.1016/j.jseaes.2015.11.017
Dai, C., Shum, C.K., Guo, J., Shang, K., Tapley, B. and Wang, R., 2016. Improved source parameter constraints for five undersea earthquakes from north component of GRACE gravity and gravity gradient change measurements, Earth planet. Sci. Lett., 443, 118-128, DOI: 10.1016/j.epsl.2016.03.025
Nentwig, V., Bahlburg, H. and Monthy, D., 2015. Sedimentology of Coastal Deposits in the Seychelles Islands—Evidence of the Indian Ocean Tsunami 2004, Pure appl. Geophys., 172, 3-4, 641-656, DOI: 10.1007/s00024-014-0990-9
Milyukov, V.K., Vinogradov, M.P., Mironov, A.P., Myasnikov, A.V. and Perelygin, N.A., 2015. The free oscillations of the earth excited by three strongest earthquakes of the past decade according to deformation observations, Izv. Phys. Solid Earth, 51, 2, 176-190, DOI: 10.1134/S1069351315010097
Okal, E.A., Fritz, H.M., Hamzeh, M.A. and Ghasemzadeh, J., 2015. Field Survey of the 1945 Makran and 2004 Indian Ocean Tsunamis in Baluchistan, Iran, Pure appl. Geophys., 172, 12, 3343-3356, DOI: 10.1007/s00024-015-1157-z
Lin, J.Y., Lo, C.L., Wu, W.N., Sibuet, J.C., Hsu, S.K. and Wen, Y.Y., 2015. Crustal thickening and extension induced by the Great Sumatra–Andaman earthquake of 26 December 2004: revealed by the seismic moment tensor element Mrr, Mar. Geophys. Res., 36, 2-3, 187-195, DOI: 10.1007/s11001-014-9240-x
Hébert, H. and Schindelé, F., 2015. Tsunami Impact Computed from Offshore Modeling and Coastal Amplification Laws: Insights from the 2004 Indian Ocean Tsunami, Pure appl. Geophys., 172, 12, 3385-3407, DOI: 10.1007/s00024-015-1136-4
Patton, J.R., Goldfinger, C., Morey, A.E., Ikehara, K., Romsos, C., Stoner, J., Djadjadihardja, Y., Udrekh, Ardhyastuti, S., Gaffar, E.Z. and Vizcaino, A., 2015. A 6600 year earthquake history in the region of the 2004 Sumatra-Andaman subduction zone earthquake, Geosphere, 11, 6, 2067-2129, DOI: 10.1130/GES01066.1
Sukrungsri, S. and Pailoplee, S., 2015. Precursory seismicity changes prior to major earthquakes along the Sumatra-Andaman subduction zone: a region-time-length algorithm approach, Earth Planets Space, 67, 1, 97, DOI: 10.1186/s40623-015-0269-0
Ali, P.Y. and Narayana, A.C., 2015. Short-Term Morphological and Shoreline Changes at Trinkat Island, Andaman and Nicobar, India, After the 2004 Tsunami, Mar. Geod., 38, 1, 26-39, DOI: 10.1080/01490419.2014.908795
Ikuta, R., Mitsui, Y., Kurokawa, Y. and Ando, M., 2015. Evaluation of strain accumulation in global subduction zones from seismicity data, Earth Planets Space, 67, 1, 192, DOI: 10.1186/s40623-015-0361-5
Wan, Y., Shen, Z.-K., Wang, M., Zeng, Y., Huang, J., Li, X., Cui, H. and Gao, X., 2015. Co-seismic fault geometry and slip distribution of the 26 December 2004, giant Sumatra–Andaman earthquake constrained by GPS, coral reef, and remote sensing data, Earthq. Science, 28, 3, 187-195, DOI: 10.1007/s11589-015-0119-y
Molodenskii, S.M. and Molodenskii, M.S., 2015. Attenuation of free spheroidal oscillations of the Earth after the M = 9 earthquake in Sumatra and super-deep earthquake in the Sea of Okhotsk: II. interpretation of the observed Q-factor, Izv. Phys. Solid Earth, 51, 6, 840-858, DOI: 10.1134/S1069351315060063
Broerse, T., Riva, R., Simons, W., Govers, R. and Vermeersen, B., 2015. Postseismic GRACE and GPS observations indicate a rheology contrast above and below the Sumatra slab, J. geophys. Res., 120, 7, 5343-5361, DOI: 10.1002/2015JB011951
Feng, L., Hill, E.M., Banerjee, P., Hermawan, I., Tsang, L.L.H., Natawidjaja, D.H., Suwargadi, B.W. and Sieh, K., 2015. A unified GPS-based earthquake catalog for the Sumatran plate boundary between 2002 and 2013, J. geophys. Res., 120, 5, 3566-3598, DOI: 10.1002/2014JB011661
Anugrah, B., Meilano, I., Gunawan, E. and Efendi, J., 2015. Estimation of postseismic deformation parameters from continuous GPS data in northern Sumatra after the 2004 Sumatra-Andaman earthquake, Earthq. Science, 28, 5-6, 347-352, DOI: 10.1007/s11589-015-0136-x
Molodenskii, S.M. and Molodenskaya, M.S., 2015. Attenuation of free spheroidal oscillations of the Earth after the M = 9 Earthquake in Sumatra and the super-deep Earthquake in the Sea of Okhotsk: I. the Admissible Q-factor range for the fundamental mode and overtones of the free spheroidal oscillations, Izv. Phys. Solid Earth, 51, 6, 821-839, DOI: 10.1134/S1069351315060051
Suppasri, A., Goto, K., Muhari, A., Ranasinghe, P., Riyaz, M., Affan, M., Mas, E., Yasuda, M. and Imamura, F., 2015. A Decade After the 2004 Indian Ocean Tsunami: The Progress in Disaster Preparedness and Future Challenges in Indonesia, Sri Lanka, Thailand and the Maldives, Pure appl. Geophys., 172, 12, 3313-3341, DOI: 10.1007/s00024-015-1134-6
Tanaka, Y., Hasegawa, T., Tsuruoka, H., Klemann, V. and Martinec, Z., 2015. Spectral-finite element approach to post-seismic relaxation in a spherical compressible Earth: application to gravity changes due to the 2004 Sumatra–Andaman earthquake, Geophys. J. Int., 200, 1, 299-321, DOI: 10.1093/gji/ggu391
Wiseman, K., Bürgmann, R., Freed, A.M. and Banerjee, P., 2015. Viscoelastic relaxation in a heterogeneous Earth following the 2004 Sumatra–Andaman earthquake, Earth planet. Sci. Lett., 431, 308-317, DOI: 10.1016/j.epsl.2015.09.024
Katsumata, K., 2015. A Long‐Term Seismic Quiescence before the 2004 Sumatra (Mw 9.1) Earthquake, Bull. seism. Soc. Am., 105, 1, 167-176, DOI: 10.1785/0120140116
Yao, D., Peng, Z. and Meng, X., 2015. Remotely triggered earthquakes in South-Central Tibet following the 2004 Mw 9.1 Sumatra and 2005 Mw 8.6 Nias earthquakes, Geophys. J. Int., 201, 2, 543-551, DOI: 10.1093/gji/ggv037
Heki, K. and Enomoto, Y., 2015. Mw dependence of the preseismic ionospheric electron enhancements, J. geophys. Res. A: Space Phys., 120, 8, 7006-7020, DOI: 10.1002/2015JA021353
Cassidy, J.F., 2015. The 2004 Sumatra Earthquake and Tsunami: Lessons Learned in Subduction Zone Science and Emergency Management for the Cascadia Subduction Zone, Pure appl. Geophys., 172, 3-4, 835-847, DOI: 10.1007/s00024-014-1023-4
Montillet, J.-P., Williams, S.D.P., Koulali, A. and McClusky, S.C., 2015. Estimation of offsets in GPS time-series and application to the detection of earthquake deformation in the far-field, Geophys. J. Int., 200, 2, 1207-1221, DOI: 10.1093/gji/ggu473
Xu, C. and Sun, W., 2014. Earthquake-origin expansion of the Earth inferred from a spherical-Earth elastic dislocation theory, Geophys. J. Int., 199, 3, 1655-1661, DOI: 10.1093/gji/ggu364
Baltay, A.S., Beroza, G.C. and Ide, S., 2014. Radiated Energy of Great Earthquakes from Teleseismic Empirical Green’s Function Deconvolution, Pure appl. Geophys., 171, 10, 2841-2862, DOI: 10.1007/s00024-014-0804-0
Rivera, L. and Kanamori, H., 2014. Diagnosing Source Geometrical Complexity of Large Earthquakes, Pure appl. Geophys., 171, 10, 2819-2840, DOI: 10.1007/s00024-013-0769-4
Chao, B.F. and Ding, H., 2014. Spherical harmonic stacking for the singlets of Earth's normal modes of free oscillation, Geophys. Res. Lett., 41, 15, 5428-5435, DOI: 10.1002/2014GL060700
Yan, Z., Zhang, H., Fan, X. and Du, X., 2014. Comparative analysis of the characteristics of global seismic wave propagation excited by the Mw9.0 Tohoku earthquake using numerical simulation, Science China Earth Sciences, 57, 7, 1626-1636, DOI: 10.1007/s11430-013-4800-5
Veerasingam, S., Venkatachalapathy, R., Basavaiah, N., Ramkumar, T., Venkatramanan, S. and Deenadayalan, K., 2014. Identification and characterization of tsunami deposits off southeast coast of India from the 2004 Indian Ocean tsunami: Rock magnetic and geochemical approach, J. Earth Syst. Sci., 123, 4, 905-921, DOI: 10.1007/s12040-014-0427-y
Tanaka, Y. and Heki, K., 2014. Long- and Short-term Postseismic Gravity Changes of Megathrust Earthquakes from Satellite Gravimetry, Geophys. Res. Lett., 41, 15, 5451-5456, DOI: 10.1002/2014GL060559
Som, S.K., Saha, A.K. and Shivgotra, V., 2014. Post-2004 mega-earthquake temporal velocity variation at Andaman Islands from GPS measurements, Natural Hazards, 72, 2, 1051-1062, DOI: 10.1007/s11069-014-1051-5
Gopinath, G., Løvholt, F., Kaiser, G., Harbitz, C.B., Raju, K.S., Ramalingam, M. and Singh, B., 2014. Impact of the 2004 Indian Ocean tsunami along the Tamil Nadu coastline: field survey review and numerical simulations, Natural Hazards, 72, 2, 743-769, DOI: 10.1007/s11069-014-1034-6
Li, J., Chen, J. and Zhang, Z., 2014. Seismologic applications of GRACE time-variable gravity measurements, Earthq. Science, 27, 2, 229-245, DOI: 10.1007/s11589-014-0072-1
Gunawan, E., Sagiya, T., Ito, T., Kimata, F., Tabei, T., Ohta, Y., Meilano, I., Abidin, H.Z., Agustan, Nurdin, I. and Sugiyanto, D., 2014. A comprehensive model of postseismic deformation of the 2004 Sumatra-Andaman earthquake deduced from GPS observations in northern Sumatra, J. Asian Earth Sci., 88, 218-229, DOI: 10.1016/j.jseaes.2014.03.016
Sun, W. and Dong, J., 2014. Geo-center Movement Caused by Huge Earthquakes, J. Geodyn., 76, 1-7, DOI: 10.1016/j.jog.2014.02.008
Lentas, K., Ferreira, A.M.G., Clévédé, E. and Roch, J., 2014. Source models of great earthquakes from ultra low-frequency normal mode data, Phys. Earth planet. Interiors, 233, 41-67, DOI: 10.1016/j.pepi.2014.05.011
Molodenskii, S.M., Molodenskii, M.S. and Molodenskaya, M.S., 2014. The density and Q-factor models based on the new data on the nutations and overtones of the free oscillations of the earth: 1. The analysis of the new GSN data for the Sumatra, Tohoku, and Okhotsk earthquakes, Izv. Phys. Solid Earth, 50, 5, 603-610, DOI: 10.1134/S1069351314040119
Trubienko, O., Garaud, J.-D. and Fleitout, L., 2014. Models of postseismic deformation after megaearthquakes: the role of various rheological and geometrical parameters of the subduction zone, Solid Earth Discuss., 6, 1, 427-466, DOI: 10.5194/sed-6-427-2014
Pulinets, S. and Davidenko, D., 2014. Ionospheric precursors of earthquakes and Global Electric Circuit, Adv. Space Res., 53, 5, 709-723, DOI: 10.1016/j.asr.2013.12.035
Gokhberg, M.B., Ol’shanskaya, E.V., Steblov, G.M. and Shalimov, S.L., 2014. The ionospheric response to the acoustic signal from submarine earthquakes according to the GPS data, Izv. Phys. Solid Earth, 50, 1, 1-8, DOI: 10.1134/S1069351314010054
Tonini, R., Armigliato, A., Pagnoni, G. and Tinti, S., 2014. Modeling the 2004 Sumatra tsunami at Seychelles Islands: site-effect analysis and comparison with observations, Natural Hazards, 70, 2, 1507-1525, DOI: 10.1007/s11069-013-0886-5
Moeremans, R., Singh, S.C., Mukti, M., McArdle, J. and Johansen, K., 2014. Seismic images of structural variations along the deformation front of the Andaman–Sumatra subduction zone: Implications for rupture propagation and tsunamigenesis, Earth planet. Sci. Lett., 386, 75-85, DOI: 10.1016/j.epsl.2013.11.003
Catherine, J.K., Gahalaut, V.K., Srinivas, N., Kumar, S. and Nagarajan, B., 2014. Evidence of Strain Accumulation in the Andaman Region for the Giant 2004 Sumatra Andaman Earthquake, Bull. seism. Soc. Am., 104, 1, 587-591, DOI: 10.1785/0120130141
Beeler, N.M., Roeloffs, E. and McCausland, W., 2014. Re‐Estimated Effects of Deep Episodic Slip on the Occurrence and Probability of Great Earthquakes in Cascadia, Bull. seism. Soc. Am., 104, 1, 128-144, DOI: 10.1785/0120120022
Parwanto, N.B. and Oyama, T., 2014. A Statistical Analysis and Comparison of Historical Earthquake and Tsunami Disasters in Japan and Indonesia, Int. J. Disaster Risk Reduction, 7, 122-141, DOI: 10.1016/j.ijdrr.2013.10.003
Kanamori, H., 2014. The Diversity of Large Earthquakes and Its Implications for Hazard Mitigation, Annu. Rev. Earth Planet. Sci., 42, 1, 7-26, DOI: 10.1146/annurev-earth-060313-055034
Lin, J.-H., Chen, Y.-F., Liu, C.-C. and Chen, G.-Y., 2014. Building a Pre-Calculated Quick Forecast System for Tsunami Run-Up Height, J. Earthq. Tsunami, 08, 03, 1440002, DOI: 10.1142/S1793431114400028
Andrade, V., Rajendran, K. and Rajendran, C.P., 2014. Sheltered coastal environments as archives of paleo-tsunami deposits: Observations from the 2004 Indian Ocean tsunami, J. Asian Earth Sci., 95, 331-341, DOI: 10.1016/j.jseaes.2014.08.029
Hartanto, D., 2013. Tsunami simulations off the west coast of Sumatra using dispersive and non-dispersive waves, Bull. IISEE, 47, 109-114.
Palermo, D., Nistor, I., Al-Faesly, T. and Cornett, A., 2013. Impact of tsunami forces on structures The University of Ottawa Experience, Science of Tsunami Hazards, 32, 2, 58-76.
Mazova, R.K., Baranov, B.V., Lobkovsky, L.I., Baranova, N.A., Dozorova, K.A. and Chaykina, O.N., 2013. Numerical model study of Tsunami generated by potential earthquake within the Komandorsky seisnic gap in the western Aleutian Island Arc, Science of Tsunami Hazards, 32, 3, 131-155.
Dimri, V.P., 2013. Cherish investigation or perish: role of law in earthquake forecasting, Curr. Sci., 105, 3, 290.
Shrivastava, M.N. and Reddy, C.D., 2013. The Mw 8.6 Indian Ocean earthquake on 11 April 2012: Coseismic displacement, Coulomb stress change and aftershocks pattern, J. geol. Soc. India, 81, 6, 813-820, DOI: 10.1007/s12594-013-0106-7
Schuwerack, P.-M., 2013. Natural hazards, community resilience and consciousness viewed through the lens of remote sensing, Natural Hazards, 68, 1, 219-221, DOI: 10.1007/s11069-013-0585-2
Occhipinti, G., Rolland, L., Lognonné, P. and Watada, S., 2013. From Sumatra 2004 to Tohoku-Oki 2011: The systematic GPS detection of the ionospheric signature induced by tsunamigenic earthquakes, J. geophys. Res. A: Space Phys., 118, 6, 3626-3636, DOI: 10.1002/jgra.50322
Mikhailov, V., Lyakhovsky, V., Panet, I., van Dinther, Y., Diament, M., Gerya, T., deViron, O. and Timoshkina, E., 2013. Numerical modelling of post-seismic rupture propagation after the Sumatra 26.12.2004 earthquake constrained by GRACE gravity data, Geophys. J. Int., 194, 2, 640-650, DOI: 10.1093/gji/ggt145
Kamthonkiat, D., Koshimura, S. and Matsuoka, M., 2013. Time Series Analysis of Shoreline Positions in the Pre- and Post-2004 Indian Ocean Tsunami in Phang Nga Province, Thailand, J. Earth Sci. Eng., 2, 1, 35-41.
Astuti, W., Sediono, W., Akmeliawati, R., Aibinu, A.M. and Salami, M.J.E., 2013. Investigation of the characteristics of geoelectric field signals prior to earthquakes using adaptive STFT techniques, Nat. Hazards Earth Syst. Sci., 13, 6, 1679-1686, DOI: 10.5194/nhess-13-1679-2013
Xing, X., Kou, Z., Huang, Z. and Lee, J.-J., 2013. Frequency Domain Response at Pacific Coast Harbors to Major Tsunamis of 2005–2011, Pure appl. Geophys., 170, 6-8, 1149-1168, DOI: 10.1007/s00024-012-0526-0
Wei, Y., Chamberlin, C., Titov, V.V., Tang, L. and Bernard, E.N., 2013. Modeling of the 2011 Japan Tsunami: Lessons for Near-Field Forecast, Pure appl. Geophys., 170, 6-8, 1309-1331, DOI: 10.1007/s00024-012-0519-z
Verma, M. and Bansal, B.K., 2013. Seismic hazard assessment and mitigation in India: an overview, Int. J. Earth Sci., 102, 5, 1203-1218, DOI: 10.1007/s00531-013-0882-8
Tregoning, P., Burgette, R., McClusky, S.C., Lejeune, S., Watson, C.S. and McQueen, H., 2013. A decade of horizontal deformation from great earthquakes, J. geophys. Res., 118, 5, 2371-2381, DOI: 10.1002/jgrb.50154
Sumner, E.J., Siti, M.I., McNeill, L.C., Talling, P.J., Henstock, T.J., Wynn, R.B., Djajadihardja, Y.S. and Permana, H., 2013. Can turbidites be used to reconstruct a paleoearthquake record for the central Sumatran margin?, Geology, 41, 7, 763-766, DOI: 10.1130/G34298.1
Satake, K., Rabinovich, A.B., Dominey-Howes, D. and Borrero, J.C., 2013. Introduction to “Historical and Recent Catastrophic Tsunamis in the World: Volume I. The 2011 Tohoku Tsunami”, Pure appl. Geophys., 170, 6-8, 955-961, DOI: 10.1007/s00024-012-0615-0
Okal, E.A., 2013. From 3-Hz P Waves to 0S2: No Evidence of A Slow Component to the Source of the 2011 Tohoku Earthquake, Pure appl. Geophys., 170, 6-8, 963-973, DOI: 10.1007/s00024-012-0500-x
Hirshorn, B., Weinstein, S. and Tsuboi, S., 2013. On the Application of Mwp in the Near Field and the March 11, 2011 Tohoku Earthquake, Pure appl. Geophys., 170, 6-8, 975-991, DOI: 10.1007/s00024-012-0495-3
Heidarzadeh, M. and Satake, K., 2013. Waveform and Spectral Analyses of the 2011 Japan Tsunami Records on Tide Gauge and DART Stations Across the Pacific Ocean, Pure appl. Geophys., 170, 6-8, 1275-1293, DOI: 10.1007/s00024-012-0558-5
Galasso, C., Zhong, P., Zareian, F., Iervolino, I. and Graves, R.W., 2013. Validation of ground-motion simulations for historical events using MDoF systems, Earthq. Engng struct. Dyn., 42, 9, 1395-1412, DOI: 10.1002/eqe.2278
Duputel, Z., Tsai, V.C., Rivera, L. and Kanamori, H., 2013. Using centroid time-delays to characterize source durations and identify earthquakes with unique characteristics, Earth planet. Sci. Lett., 374, 92-100, DOI: 10.1016/j.epsl.2013.05.024
Deonath, A. and Mukhopadhyay, B., 2013. A panoptic view of western margin of Sundaland: Causes of seismic vulnerability of Sumatra, J. geol. Soc. India, 81, 5, 637-646, DOI: 10.1007/s12594-013-0085-8
Cheong, J.-Y., Hamm, S.-Y., Kim, S.-H., Lee, S.-H., Woo, N.-C. and Kim, G.-B., 2013. Analyzing groundwater change on a volcanic island caused by the impact of the M9 Sumatra earthquake, Geosci. J., 17, 2, 183-195, DOI: 10.1007/s12303-013-0012-4
Cahyadi, M.N. and Heki, K., 2013. Ionospheric disturbances of the 2007 Bengkulu and the 2005 Nias earthquakes, Sumatra, observed with a regional GPS network, J. geophys. Res. A: Space Phys., 118, 4, 1777-1787, DOI: 10.1002/jgra.50208
Jolly, A.D., Power, W., Fournier, N. and Wang, X., 2013. Capturing Transient Mass Changes for the 2011 Tohoku Tsunami on a Spring Gravity Meter, Bull. seism. Soc. Am., 103, 2B, 1622-1627, DOI: 10.1785/0120120104
Hayakawa, M., Hobara, Y., Rozhnoi, A., Solovieva, M., Ohta, K., Izutsu, J., Nakamura, T. and Kasahara, Y., 2013. The Ionospheric Precursor to the 2011 March 11 Earthquake Based upon Observations Obtained from the Japan-Pacific Subionospheric VLF/LF Network, Terr. Atmos. Ocean. Sci., 24, 3, 393-408, DOI: 10.3319/TAO.2012.12.14.01(AA)
Chen, X.-Z., Li, Y.-E., Wang, H.-X. and Guo, X.-Y., 2013. The enhancement of seismicity before the 2004 Mw 9.0 Indonesia Sumatra earthquake and its relation to the earth rotation, Chinese J. Geophys., 2013, 1, 79-90.
Stein, S. and Stein, J.L., 2013. Shallow Versus Deep Uncertainties in Natural Hazard Assessments, EOS. Trans. Am. geophys. Un., 94, 14, 133-134, DOI: 10.1002/2013EO140001
Rajendran, C.P., Rajendran, K., Andrade, V. and Srinivasalu, S., 2013. Ages and relative sizes of pre-2004 tsunamis in the Bay of Bengal inferred from geologic evidence in the Andaman and Nicobar Islands, J. geophys. Res., 118, 4, 1345-1362, DOI: 10.1002/jgrb.50122
Vallianatos, F. and Sammonds, P., 2013. Evidence of non-extensive statistical physics of the lithospheric instability approaching the 2004 Sumatran–Andaman and 2011 Honshu mega-earthquakes, Tectonophysics, 590, 1, 52 - 58, DOI: 10.1016/j.tecto.2013.01.009
Shulgin, A., Kopp, H., Klaeschen, D., Papenberg, C., Tilmann, F., Flueh, E.R., Franke, D., Barckhausen, U., Krabbenhoeft, A. and Djajadihardja, Y., 2013. Subduction system variability across the segment boundary of the 2004/2005 Sumatra megathrust earthquakes, Earth planet. Sci. Lett., 365, 3, 108 - 119, DOI: 10.1016/j.epsl.2012.12.032
Raju, E. and Becker, P., 2013. Multi-Organizational Coordination for Disaster Recovery: The Story of Post-tsunami Tamil Nadu, India, Int. J. Disaster Risk Reduction, 4, 82-91, DOI: 10.1016/j.ijdrr.2013.02.004
Praveen, S.S., Kurian, N.P. and Hameed, T.S.S., 2013. Tsunami Inundation Modelling for the Coast of Kerala, India, Mar. Geod., 36, 1, 86-97, DOI: 10.1080/01490419.2012.699502
Morra, G., Geller, R.J., Grilli, S.T., Karato, S.-, King, S., Lee, S.-M., Tackley, P. and Yuen, D., 2013. Growing Understanding of Subduction Dynamics Indicates Need to Rethink Seismic Hazards, EOS. Trans. Am. geophys. Un., 94, 13, 125-126, DOI: 10.1002/2013EO130008
Goldfinger, C., Ikeda, Y., Yeats, R.S. and Ren, J., 2013. Superquakes and Supercycles, Seismol. Res. Lett., 84, 1, 24-32, DOI: 10.1785/0220110135
Ontowirjo, B., Paris, R. and Mano, A., 2013. Modeling of coastal erosion and sediment deposition during the 2004 Indian Ocean tsunami in Lhok Nga, Sumatra, Indonesia, Natural Hazards, 65, 3, 1967-1979, DOI: 10.1007/s11069-012-0455-3
Satirapod, C., Trisirisatayawong, I., Fleitout, L., Garaud, J.D. and Simons, W.J.F., 2013. Vertical motions in Thailand after the 2004 Sumatra-Andaman Earthquake from GPS observations and its geophysical modelling, Adv. Space Res., 51, 8, 1565-1571, DOI: 10.1016/j.asr.2012.04.030
Zheng, Y., Ni, S., Chen, Y., Tan, Y. and Helmberger, D., 2013. Magnitude and rupture duration from high frequency teleseismic P wave with projected landweber deconvolution, Science China Earth Sciences, 56, 1, 13-21, DOI: 10.1007/s11430-012-4557-2
Yadav, R., Tripathi, J. and Kumar, T., 2013. Probabilistic Assessment of Tsunami Recurrence in the Indian Ocean, Pure appl. Geophys., 170, 3, 373-389, DOI: 10.1007/s00024-012-0487-3
Han, S.-C., Riva, R., Sauber, J. and Okal, E., 2013. Source parameter inversion for recent great earthquakes from a decade-long observation of global gravity fields, J. geophys. Res., 40, 3, 1240-1267, DOI: 10.1002/jgrb.50116
Van der Elst, N.J., Brodsky, E.E. and Lay, T., 2013. Remote Triggering Not Evident Near Epicenters of Impending Great Earthquakes, Bull. seism. Soc. Am., 103, 2B, 1522-1540, DOI: 10.1785/0120120126
Sun, L., Zhou, X., Huang, W., Liu, X., Yan, H., Xie, Z., Wu, Z., Zhao, S., Shao, D. and Yang, W., 2013. Preliminary evidence for a 1000-year-old tsunami in the South China Sea, Sci. Rep., 3, 1655, , DOI: 10.1038/srep01655
Schultz, C., 2013. Long-distance induced tremor observed off western Canada, EOS. Trans. Am. geophys. Un., 94, 20, 188, DOI: 10.1002/2013EO200008
Ridha, M., Fonna, S., Huzni, S. and Ariffin, A.K., 2013. Corrosion risk assessment of public buildings affected by the 2004 tsunami in Banda Aceh, J. Earthq. Tsunami, 07, 1350004, DOI: 10.1142/S1793431113500048
Pérez‐Campos, X., Melgar, D., Singh, S.K., Cruz‐Atienza, V., Iglesias, A. and Hjörleifsdóttir, V., 2013. Rapid Estimation of Fault Parameters for Tsunami Warning along the Mexican Subduction Zone: A Scenario Earthquake in the Guerrero Seismic Gap, Seismol. Res. Lett., 84, 3, 474-484, DOI: 10.1785/0220120156
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